OpenRTMFP/Cumulus Primer(10)IO 管理之流缓冲区
OpenRTMFP/Cumulus Primer(10)IO 管理之流缓冲区
- Author: 柳大·Poechant(钟超)
- Email: zhongchao.ustc#gmail.com (#->@)
- Blog: Blog.CSDN.net/Poechant
- Date: April 24th, 2012
本文主要分析 MemoryStream.h 文件中定义的类。
1 了解 std::streambuf
首先要了解 streambuf 内置了一个 get 指针和一个 put 指针。streambuf 的所有操作基本都是对这两个指针的操作。其一些成员函数的缩写中的 g 和 p 就分别表示 get pointer 和 put pointer。
1.1 单步移动内置指针
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Increase get pointer: Advances the get pointer by n positions. The get pointer is the internal pointer that points to the next location in the controlled input sequence.
void gbump ( int n );
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Increase put pointer: Advances the put pointer by n positions. The put pointer is the internal pointer that points to the next location of the controlled output sequence.
void pbump ( int n );
1.2 获取 get 指针和 put 指针的位置
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Pointer to current position of input sequence: Returns a reference to the current element of the controlled input sequence (i.e., the “get pointer”).
char * gptr ( ) const;
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Pointer to current position of output sequence: Returns a reference to the current element of the output sequence (the put pointer).
char * pptr ( ) const;
1.3 设置 get 和 put 指针可达区域的上下界
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Set input sequence pointers: Sets values for the pointers that define both the boundaries of the accessible part of the controlled input sequence and the get pointer itself.
void setg ( char* gbeg, char* gnext, char* gend );
- gbeg: New value for the pointer to the beginning of the accessible part of the controlled input sequence.
- gnext: New value for the get pointer, which points to the next element within the controlled input sequence where the next input operation shall be performed.
- gend: New value for the end pointer, just past the end of the accessible part of the controlled input sequence.
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Set output sequence pointers: Sets the values that define the boundaries of the accessible part of the controlled output sequence.
void setp ( char* pbeg, char* pend );
- pbeg: New value for the pointer to the beginning of the accessible part of the controlled output sequence and put pointer.
- pend: New value for the end pointer, just past the end of the accessible part of the controlled output sequence.
2 MemoryStreamBuf
类定义:
class MemoryStreamBuf: public std::streambuf {
friend class ScopedMemoryClip;
public:
MemoryStreamBuf(char* pBuffer,Poco::UInt32 bufferSize);
MemoryStreamBuf(MemoryStreamBuf&);
~MemoryStreamBuf();
void next(Poco::UInt32 size); // Explaint below
Poco::UInt32 written(); // Explaint below
void written(Poco::UInt32 size);
Poco::UInt32 size(); // Explaint below
void resize(Poco::UInt32 newSize); // Explaint below
char* begin(); // Explaint below
void position(Poco::UInt32 pos=0); // Explaint below
char* gCurrent(); // Explaint below
char* pCurrent(); // Explaint below
private:
virtual int overflow(int_type c);
virtual int underflow();
virtual int sync();
Poco::UInt32 _written;
char* _pBuffer;
Poco::UInt32 _bufferSize;
MemoryStreamBuf();
MemoryStreamBuf& operator = (const MemoryStreamBuf&);
};
ScopedMemoryClip 是 MemoryStreamBuf 的友元,其内部有 MemoryStreamBuf 的成员,这里暂且不管。构造函数传入的参数是缓冲区的地址和缓冲区大小(字节数)。拷贝构造函数和析构函数不必赘述。
2.1 移动内置的 get 和 put 指针:
put 和 get 指针都移动:
void MemoryStreamBuf::next(UInt32 size) {
pbump(size);
gbump(size);
}
2.2 获取 get 和 put 指针当前位置:
封装 streambuf 的 gptr 和 pptr:
inline char* MemoryStreamBuf::gCurrent() {
return gptr();
}
inline char* MemoryStreamBuf::pCurrent() {
return pptr();
}
2.3 获取缓冲区的起始位置和大小:
依赖于内置成员变量 pBuffer 和 bufferSize:
inline char* MemoryStreamBuf::begin() {
return _pBuffer;
}
inline Poco::UInt32 MemoryStreamBuf::size() {
return _bufferSize;
}
2.4 缓冲区的已写字节数
读取(其中也可能发生设置操作):
UInt32 MemoryStreamBuf::written() {
int written = pCurrent() - begin(); // 已写字节数
if (written < 0)
written = 0;
if (written > _written) // 保存已写字节数
_written = (UInt32)written;
return _written;
}
设置:
void MemoryStreamBuf::written(UInt32 size) {
_written=size;
}
2.5 显式设定 put 和 get 指针位置
设定 put 和 get 指针为以缓冲区首地址为开始偏移量为 pos 的位置:
void MemoryStreamBuf::position(UInt32 pos) {
// 保存已写字节数
written(); // Save nb char written
// 移动 put 指针
setp(_pBuffer, _pBuffer + _bufferSize);
if (pos > _bufferSize)
pos = _bufferSize;
pbump((int) pos);
// 移动 get 指针
setg(_pBuffer, _pBuffer + pos, _pBuffer + _bufferSize);
}
2.6 修改缓冲区大小
void MemoryStreamBuf::resize(UInt32 newSize) {
// 大小标识
_bufferSize = newSize;
// gptr 当前位置
int pos = gCurrent() - _pBuffer;
if (pos > _bufferSize) pos = _bufferSize;
// 设置 gptr 可达范围和当前位置
setg(_pBuffer, _pBuffer + pos, _pBuffer + _bufferSize);
// pptr 当前位置
pos = pCurrent() - _pBuffer;
if (pos > _bufferSize) pos = _bufferSize;
// 设置 pptr 可达范围和当前位置
setp(_pBuffer,_pBuffer + _bufferSize);
pbump(pos);
}
2.7 构造函数、拷贝构造函数和析构函数
构造函数会设定 pptr 和 gptr,并初始化 pBuffer 和 bufferSize
MemoryStreamBuf::MemoryStreamBuf(char* pBuffer, UInt32 bufferSize): _pBuffer(pBuffer),_bufferSize(bufferSize),_written(0) {
setg(_pBuffer, _pBuffer,_pBuffer + _bufferSize);
setp(_pBuffer, _pBuffer + _bufferSize);
}
析构函数会拷贝对方的 pBuffer、bufferSizse、_written,并设定 gptr、pptr。注意设定 pptr 时,要分别调用 setp 和 pbump,因为 setp 仅将 pptr 设定为传入的首个参数值(与可达范围的首地址相同)。
MemoryStreamBuf::MemoryStreamBuf(MemoryStreamBuf& other): _pBuffer(other._pBuffer),_bufferSize(other._bufferSize),_written(other._written) {
setg(_pBuffer, other.gCurrent(), _pBuffer + _bufferSize);
setp(_pBuffer, _pBuffer + _bufferSize);
pbump((int)(other.pCurrent()-_pBuffer));
}
析构函数:
MemoryStreamBuf::~MemoryStreamBuf() {
}
Reference
- http://www.cplusplus.com/reference/iostream/streambuf/gbump/
- http://www.cplusplus.com/reference/iostream/streambuf/pbump/
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